Experimental analysis of AISI 304 surface irregularities created by abrasive waterjet by means of 3D optical measurement

• Autorzy: Hloch S. , Valicek J. , Monkova K.
• Konferencja: Mechanics 2008 / International Scientific Conference (VI; 2008; Rzeszow, Poland)
• Języki publikacji: EN

Abstrakty

EN

The paper deals with experimental analysis of AISI surface irregularities created by abrasive waterjet by means of 3D optical measurement. The surface irregularities has been evaluated by static quality characteristics the arithmetic average height Ra, root mean square roughness Rq and peak to valley height Rz that has been obtained from 24 measurement traces. The surface irregularities have been measured by means of contactless optical method, namely by using an optical commercial profilometer MicroProf (FRT). The main emphasis is put on the analysis of results for defining the process of creation of a new surface generated by the stream of abrasive waterjet, including its geometric parameters and mechanisms of cutting tool-material interaction.

Słowa kluczowe

EN

optical measurement; abrasive waterjet; AISI 304 surface; experimental analysis

PL

pomiar optyczny; strumień wodno-ścierny; powierzchnia stalowa; analiza eksperymentalna

• Wydawca: Oficyna Wydawnicza Politechniki Rzeszowskiej
• Czasopismo: Zeszyty Naukowe Politechniki Rzeszowskiej. Mechanika
• Rocznik: 2008
• Tom: z. 73 [253]
• Strony: 123--128
• Opis fizyczny: Bibliogr. 16 poz., rys., wykr.

Twórcy

autor

Hloch S.

autor

Valicek J.

autor

Monkova K.

• Technical university of Kosice with a seat in Presov, Slovak Republic

Bibliografia

• 1. Batorá B., Vasilko K.: Machined surfaces: technological heredity, functionality. Trenčin, 2000, pp. 183.
• 2. Cebalo R., Stoić A.: Optimisation of the roughness of the ground surface by diamond roller dressing. Tehnički vjesnik 3,4, 2003, pp. 3-8.
• 3. Fabianová J.: Význam skúmania vplyvu rezných parametrov pri rezani vodným lúčom. In: Výrobne inžinierstvo. roč. 6, č. 2, 2007, s. 53-55. ISSN 1335-7972.
• 4. Gombár M.: Statistical model of surface roughness. In: Electrotechnics in practise. 2006, vol. 16, no. 11-12, pp. 26-28.
• 5. Hloch S., Gombár M., Fabian S , Straka L.: Factor analysis of abrasive waterjet process factors influencing the cast aluminum surface roughness. In: Manufacturing Science and Technology. Malaysia, 2006, pp. 145-149.
• 6. Kozak D., Vojvodica J., Gubeljak N., Semenski D.: Factors influencing the yielding constraint by crocked welded components. Program and book of abstracts of 12th Conference on Materials and Technology / Jenko, Monika, editor(s). Ljubljana: Institut za kovinske materiale in tehnologije, 2004 pp. 79-79.
• 7. Kušnerová M., Hlaváč L.M.: Self vibrating chambers with continuous passage of liquid. Sborník vědeckých prací VŠB - TUO. Řada strojní č. 1/2006, roč. LII. VŠB-TUO, Ostrava, 2006, s. 127- 134. ISSN 1210-0471.
• 8. Ohlídal M., Páleníková K.: Možnosti:optického profilometru MicroProf FRT při 3D hodnocení kvality povrchu. Jemná mechanika a optika, Vol. 49, (2004), No.9, pp.251-255, ISSN 0447-6411
• 9. Páleniková K., Ohlídal M.: Potentialities of optical profilometer MicroProf FRT for surface quality measurement. 14 th Slovak-Czech Polish Conference on Wave and Quantum Aspects of Contemporary Optics, pp.59451O-1-59456, ISBN 0-8194-5951-8, (2005), SPIE - The international-Society for Optical Engineering.
• 10. Stoić A., Lucić M., Kopáč J.: Evaluation of the Stability During Hard Turning. Strojmški vestnik 52, 11, 2006, pp. 723-737.
• 11. Stoić A., Samardzic I., Klaric S.: Cutting errors in abrasive water jet cutting. CIM 2007 Computer Integrated Manufacturing and High Speed Machining / Aberle, Eberhard ; Udiljak, Toma ; Ciglar, Damir, editor(s) Zagreb ; Croatian Association of Production Engineering, 2007, pp. 333-338.
• 12. Valíček J., Držik M., Ohlídal M., Mádr V., Hlaváč L.M.: Optical method for surface analyses and their utilization for abrasive liquid jet automation. In: Proc of the 2001 WJTA American Waterjet Conference, M. Hashish (ed.), WJTA, Minneapolis, Minnesota, pp. 1-11, 2001.
• 13. Valíček J., Hloch S.: Surface topography optical identification generated by abrasive waterjet. In: Fine Mechanics and Optics. vol. 51, no 11-12, 2006, pp. 320-322.
• 14. Vasilko K., Lipták J., Kozáková D., Modrák V.: New materials and technologies of their machininig. Alfa, 1990, pp. 365.
• 15. Hascalik A., Caydas U., Gurun H.: Effect of traverse speed on abrasive waterjet machining of Ti-6Al-4V alloy. In. Materials & Design, Volume 28, Issue 6, 2007, pp. 1953-1957.
• 16. Kulekci, K.M.: Processes and apparatus developments in industrial waterjet applications. International Journal of Machine Tools & Manufacture 42 (3002) 1297-1306.